Distribution Test Feeders, Free Paper Sample

Published: 2022-03-25
 Distribution Test Feeders, Free Paper Sample
Type of paper:  Problem solving
Categories:  Electronics
Pages: 3
Wordcount: 683 words
6 min read
143 views

Regulator Data

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Regulator ID: 1 Line Segment: 650 - 632 Location: 50 Phases: A - B -C Connection: 3-Ph,LG Monitoring Phase: A-B-C Bandwidth: 2.0 volts PT Ratio: 20 Primary CT Rating: 700 Compensator Settings: Ph-A Ph-B Ph-C

R - Setting: 3 3 3

X - Setting: 9 9 9

Volltage Level: 122 122 122

Spot Load Data

Node Load Ph-1 Ph-1 Ph-2 Ph-2 Ph-3 Ph-3

Model kW kVArkW kVArkW kVAr634 Y-PQ 160 110 120 90 120 90

645 Y-PQ 0 0 170 125 0 0

646 D-Z 0 0 230 132 0 0

652 Y-Z 128 86 0 0 0 0

671 D-PQ 385 220 385 220 385 220

675 Y-PQ 485 190 68 60 290 212

692 D-I 0 0 0 0 170 151

611 Y-I 0 0 0 0 170 80

TOTAL 1158 606 973 627 1135 753

Distributed Load Data

Node A Node B Load Ph-1 Ph-1 Ph-2 Ph-2 Ph-3 Ph-3

Model kW kVArkW kVArkW kVAr632 671 Y-PQ 17 10 66 38 117 68

Matlab Code

Configuration 601:

Z (R +jX) in ohms per mile

0.3465 1.0179 0.1560 0.5017 0.1580 0.4236

0.3375 1.0478 0.1535 0.3849

0.3414 1.0348 B in micro Siemens per mile

6.2998 -1.9958 -1.2595

5.9597 -0.7417

5.6386

Configuration 602:

Z (R +jX) in ohms per mile

0.7526 1.1814 0.1580 0.4236 0.1560 0.5017

0.7475 1.1983 0.1535 0.3849

0.7436 1.2112 B in micro Siemens per mile

5.6990 -1.0817 -1.6905

5.1795 -0.6588

5.4246

Configuration 603:

Z (R +jX) in ohms per mile

0.0000 0.0000 0.0000 0.0000 0.0000 0.0000

1.3294 1.3471 0.2066 0.4591

1.3238 1.3569 B in micro Siemens per mile

0.0000 0.0000 0.0000

4.7097 -0.8999

4.6658

Configuration 604:

Z (R +jX) in ohms per mile

1.3238 1.3569 0.0000 0.0000 0.2066 0.4591

0.0000 0.0000 0.0000 0.0000

1.3294 1.3471 B in micro Siemens per mile

4.6658 0.0000 -0.8999

0.0000 0.0000

4.7097

The IEEE Four-Node Test Feeder

Unlike other, this feeder was not among the initial arrangement of test frameworks distributed in 1992. The basic role of this test feeder is to give a basic framework for the testing of all conceivable connections of the three-stage transformer. Qualities of the feeder are:

1. Double line sections coupled with a bank of a three-stage transformer linked between the two portions

2. Data specifications are done for "shut" connections for a three-stage transformer, as well as for two "open" transformer connections

3. Transformer information is indicated for step-down and step-up testing.

1. The principle voltage is constantly 12.47 kV while the auxiliary voltage can be 4.16 kV or 24.9 kV.

4. Information is determined for adjusted and lopsided loading at the furthest nodes

Test outcomes the above feeder incorporates the accompanying transformer connections for step-up and step-down operations, as well as for the unbalanced and balanced loading. Information for five diverse test feeders was created. Information showing up in this paper is "normal" to the majority of the feeders. The aggregate information for the 13 hub test feeder is incorporated to show the type of the information for the other test feeders.

References

[1] D. Aliprantis, S. Penick, L. Tesfatsion, and H. Zhao, "Integrated retail and wholesale power system operation with smart-grid functionality," in Proc. IEEE Power Energy Soc. Gen. Meet., Minneapolis, MN, Jul. 2010.

[2] W. H. Kersting, "Radial distribution test feeders," in Proc. IEEE Power Eng. Soc. Winter Meet., vol. 2, Columbus, OH, Jan. 2001, pp. 908-912.

[3] Distribution test feeders. IEEE PES Distribution System Analysis Subcommittee. [Online]. Available: http://www.ewh.ieee.org/soc/pes/ dsacom/testfeeders/index.html

[4] IEEE Distribution Planning Working Group Report, "Radial distribution test feeders", IEEE Transactions on Power Systems,, August 1991, Volume 6, Number 3, pp 975-985.

[5] J.D. Glover and M. Sarma, "system analysis and design", 2nd Edition, PWS Publishing Company, Boston, MA, 1994.

[6] K. Strunz, R. H. Fletcher, R. Campbell, and F. Gao, "Developing benchmark models for low-voltage distribution feeders," in Proc. IEEE Power Energy Soc. Gen. Meet., Calgary, AB, Jul. 2009.

[7] K. Rudion, Z. A. Styczynski, N. Hatziargyriou, S. Papathanassiou, K. Strunz, O. Ruhle, A. Orths, and B. Rozel, "Development of benchmarks for low and medium voltage distribution networks with high penetration of dispersed generation," CIGRE Report, 2006.

[8] K. P. Schneider, Y. Chen, D. P. Chassin, R. Pratt, D. Engel, and S. Thompson, "Modern grid initiative distribution taxonomy final report," Pacific Northwest National Laboratory, Tech. Rep., Nov. 2008.

[9] K. P. Schneider, Y. Chen, D. Engle, and D. Chassin, "A taxonomy of North American radial distribution feeders," in Proc. IEEE Power Energy Soc. Gen. Meet., Calgary, AB, Jul. 2009.

[10] GridLAB-D. Pacific Northwest National Laboratory (PNNL). [Online]. Available: http://www.gridlabd.org/ [10] U.S. Dept. of Transportation, Federal Highway Administration. National household travel survey.[11] "Product data", Section 2, Sheets 10 and Okonite Company, www.okonite.com[12] "Overhead conductor manual", Southwire 30., The Company, Carrollton, GA, 1994.

[13] J.D. Glover and M. Sarma, "system analysis and design", 2nd Edition, PWS Publishing Company, Boston, MA, 1994.

[14] K. P. Schneider, Y. Chen, D. P. Chassin, R. Pratt, D. Engel, and S. Thompson, "Modern grid initiative distribution taxonomy final report," Pacific Northwest National Laboratory, Tech. Rep., Nov. 2008.

[15] W. H. Kersting, "Radial distribution test feeders," in Proc. IEEE Power Eng. Soc. Winter Meet., vol. 2, Columbus, OH, Jan. 2001, pp. 908-912.

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